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Week
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Topics
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Teaching and Learning Methods and Techniques
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Study Materials
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1. Week
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Structure of the Cell and Transport from the Cell Membrane
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Lecture; Question Answer; Discussion
Brainstorming; Colloquium
Problem Based Learning
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Homework
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2. Week
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Structure of the Cell and Transport from the Cell Membrane
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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3. Week
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Introduction to Metabolism: Hydrolysis, condensation, phosphate transport, oxidoreduction reactions, introduction to metabolism, catabolism, anabolism, autotrophic organisms, heterotrophic organisms, biochemical reactions, organization of the metabolism, reaction types of biochemical significance, thermodynamic properties of substances, energy, enthalpy, entropy, free energy, laws of thermodynamics, standard free energy change, high energy compounds.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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4. Week
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Carbohydrate Metabolism:Glycolysis, pentose phospate
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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5. Week
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Carbohydrate Metabolism:Krebs
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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6. Week
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Biological Oxidation: Oxidative phosphorylation, mitochondrion, NAD+ NADP+ linked dehydrogenases, flavin linked dehydrogenases, Fe-S centers, ubiquinone, cytochromes, ATP synthase, chemiosmotic theory, malate-aspartate shuttle, glycerol-3-phosphate shuttle, regulation of oxidative phosphorylation.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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7. Week
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Photosynthesis: Photosynthetic organisms, photosynthesis in higher plants, Hill reaction, light absorption, phycobilisome, photosystem I, photosystem II, ATP synthesis, proton and electron cycle in thylakoids, photosynthetic carbohydrate synthesis, regulation of carbohydrate metabolism in plants, Calvin cycle, photorespiration.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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8. Week
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Lipid Metabolism: beta oxidation,ketone bodies
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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9. Week
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Lipid Metabolism: Synthesis
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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10. Week
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Protein ve Amino Acid Metabolism:transamination
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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11. Week
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Protein ve Amino Acid Metabolism: ürea synthesis, nitrate
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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12. Week
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Nucleotide Metabolism: Components of nucleotides, nucleosides, nucleotides, functions of nucleotides, intake of nucleotides, purine ribonucleotide synthesis, AMP and GMP formation from IMP, de novo synthesis of pyrimidine nucleotides, degradation of purine nucleotides, degradation of pyrimidine nucleotides.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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13. Week
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Nucleic Acid Metabolism: Functions of nucleic acids, DNA packaging, histones, semiconservative replication, DNA replication, DNA replication steps in E. coli, transcription, DNA transcription steps in E. coli, transcription in eukaryotic cells, RNA processing, translation, ribosomes, protein synthesis in prokaryotes.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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14. Week
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Nucleic Acid Metabolism: Functions of nucleic acids, DNA packaging, histones, semiconservative replication, DNA replication, DNA replication steps in E. coli, transcription, DNA transcription steps in E. coli, transcription in eukaryotic cells, RNA processing, translation, ribosomes, protein synthesis in prokaryotes.
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Lecture; Question Answer
Brainstorming; Colloquium
Problem Based Learning
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Homework
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